PIPEEDGE

Analysis of coherent states at the laminar-turbulence boundary in pipe flow

Coordinatore	MAX PLANCK GESELLSCHAFT ZUR FOERDERUNG DER WISSENSCHAFTEN E.V.    more  Organization address address: Hofgartenstrasse 8 city: MUENCHEN postcode: 80539 contact info Titolo: Prof. Nome: Stephan Cognome: Herminghaus Email: send email Telefono: +49 551 5176200 Fax: +49 551 5176202
Nazionalità Coordinatore	Germany [DE]
Totale costo	161˙742 €
EC contributo	161˙742 €
Programma	FP7-PEOPLE Specific programme "People" implementing the Seventh Framework Programme of the European Community for research, technological development and demonstration activities (2007 to 2013)
Code Call	FP7-PEOPLE-2010-IEF
Funding Scheme	MC-IEF
Anno di inizio	2011
Periodo (anno-mese-giorno)	2011-04-01   -   2012-03-31

 Partecipanti

#	participant	country	role	EC contrib. [€]
1	MAX PLANCK GESELLSCHAFT ZUR FOERDERUNG DER WISSENSCHAFTEN E.V.  Organization address address: Hofgartenstrasse 8 city: MUENCHEN postcode: 80539 contact info Titolo: Prof. Nome: Stephan Cognome: Herminghaus Email: send email Telefono: +49 551 5176200 Fax: +49 551 5176202	DE (MUENCHEN)	coordinator	161˙742.40

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 Obiettivo del progetto (Objective)

'Turbulent flows are encountered ubiquitously in nature and technical applications. For example, flows over an airfoil or water flows through pipelines have a chaotic spatial structure and are highly time-dependent. In general, the transfer of fluids is energetically far more efficient if the fluid motion is smooth, since friction losses are much lower. Therefore the transition from laminar to turbulent flow poses a challenge of great practical and theoretical importance. The aim of this proposal is to advance the understanding of the onset of turbulence in pipe flow by investigating (i) the boundary between the laminar and the turbulent flow, which is believed to be governed by coherent flow structures, so-called edge states and (ii) the mechanism that sustains and expands turbulence contaminating the laminar flow.

To address the transition to turbulence in pipe flows, the fellow will perform laboratory experiments and numerical simulations at the Max Planck Institute for Dynamics and Self-Organization (MPIDS). The results will be used to test and extend current theoretical predictions, which stem from modern concepts of dynamical systems and hydrodynamic stability. The expected results would not only shed light on the energetic mechanisms that sustain turbulence, but also furnish the basis for new strategies to control turbulence in pipe flow.

The fellow's previous experience on the topic of laminar-turbulent interfaces and in experimental and numerical approaches provides a suitable background to learn the new skills needed to attack the complex phenomena encountered in transition to turbulence. The new scientific skills gathered at MPIDS together with communication and mentoring skills will render the fellow in an outstanding position to obtain a tenured position following the completion of the proposed research. The proposed research work with the scientifically established group of Dr. Björn Hof in Göttingen will be a crucial step towards this aim.'